Center for Cell Biology and Cancer Research, Albany Medical College, Albany, New York, United States of America.
PLoS One. 2013 Jun 28;8(6):e68190. doi: 10.1371/journal.pone.0068190. Print 2013.
DIAPH1 is a formin protein which promotes actin polymerization, stabilizes microtubules and consequently is involved in cytoskeleton dynamics, cell migration and differentiation. In contrast to the relatively well-understood signaling cascades that regulate DIAPH1 activity, its spatial regulation of biogenesis is not understood. A recent report showed that synthesis of DIAPH1 is confined in the perinuclear ER compartment through translation-dependent mRNA targeting. However, the underlying mechanism of DIAPH1 local synthesis is yet to be elucidated. Here, we provide evidence to demonstrate that the 5'-cap-mediated immediate translation of DIAPH1 mRNA upon exiting nucleus is required for localizing the mRNA in the perinuclear ER compartment. This is supported by data: 1) Delayed translation of DIAPH1 mRNA resulted in loss of perinuclear localization of the mRNA; 2) Once delocalized, DIAPH1 mRNA could not be retargeted to the perinuclear region; and 3) The translation of DIAPH1 mRNA is 5'-cap dependent. These results provide new insights into the novel mechanism of DIAPH1 local synthesis. In addition, these findings have led to the development of new approaches for manipulating DIAPH1 mRNA localization and local protein synthesis in cells for functional studies. Furthermore, a correlation of DIAPH1 mRNA and DIAPH1 protein localization has been demonstrated using a new method to quantify the intracellular distribution of protein.
DIAPH1 是一种形成蛋白,可促进肌动蛋白聚合,稳定微管,从而参与细胞骨架动力学、细胞迁移和分化。与调节 DIAPH1 活性的相对了解的信号级联相反,其生物发生的空间调节尚不清楚。最近的一份报告表明,DIAPH1 的合成通过依赖翻译的 mRNA 靶向局限于核周 ER 隔室。然而,DIAPH1 局部合成的潜在机制尚未阐明。在这里,我们提供证据表明,DIAPH1 mRNA 出核后通过 5'-帽介导的立即翻译对于将 mRNA 定位于核周 ER 隔室是必需的。这得到了以下数据的支持:1)DIAPH1 mRNA 的延迟翻译导致 mRNA 失去核周定位;2)一旦去定位,DIAPH1 mRNA 不能重新靶向核周区域;3)DIAPH1 mRNA 的翻译是 5'-帽依赖性的。这些结果为 DIAPH1 局部合成的新机制提供了新的见解。此外,这些发现导致开发了新方法来操纵细胞中 DIAPH1 mRNA 定位和局部蛋白质合成,以进行功能研究。此外,使用一种新的方法来定量蛋白质的细胞内分布,已经证明了 DIAPH1 mRNA 和 DIAPH1 蛋白定位之间存在相关性。